conceptual question, no calculations TCC1+Circle the turning points.Automatic Zoomc) The graph shows potential energy vs. position. Theobject has a maximum kinetic energy of 1.0 J.On the same graph, draw and label the total energy(TE) and kinetic energy (KE) vs. position.d) A block is attached to a spring. It is given a push. Agraph of position vs. time is shown.Draw a graph of velocity vs. time.Your graph should be drawn correctly to scale.E (J)4-3-2100.1m0.0m-0.1m0.5m/s0.0m/s-0.5m/sXV1s1s2sPEPrint-Xt35t3s 3Down

Given:To find:Kinetic and total energy vs position

c) The graph shows potential energy vs. position. The object has a maximum kinetic energy of 1.0 J. On the same graph, draw and label the total energy (TE) and kinetic energy (KE) vs. position. Circle the turning points. d) A block is attached to a spring. It is given a push. A graph of position vs. time is shown. Draw a graph of velocity vs. time. Your graph should be drawn correctly to scale.

c) The graph shows potential energy vs. position. The object has a maximum kinetic energy of 1.0 J. On the same graph, draw and label the total energy (TE) and kinetic energy (KE) vs. position. Circle the turning points. d) A block is attached to a spring. It is given a push. A graph of position vs. time is shown. Draw a graph of velocity vs. time. Your graph should be drawn correctly to scale.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Concept explainers

Atomic diffusion in solids

In material science, diffusion can take place in solid, liquid, and gases. In solids, atomic diffusion can take place with the help of thermally activated and randomly vibrating atoms. The atomic diffusion in solids is complex and very slow in comparison to atomic diffusion in liquids and gases because the interatomic distance between the atoms is smaller in solids as compared to liquids and gases.

Question

conceptual question, no calculations

TCC
1
+
Circle the turning points.
Automatic Zoom
c) The graph shows potential energy vs. position. The
object has a maximum kinetic energy of 1.0 J.
On the same graph, draw and label the total energy
(TE) and kinetic energy (KE) vs. position.
d) A block is attached to a spring. It is given a push. A
graph of position vs. time is shown.
Draw a graph of velocity vs. time.
Your graph should be drawn correctly to scale.
E (J)
4-
3-
2
1
0
0.1m
0.0m
-0.1m
0.5m/s
0.0m/s
-0.5m/s
X
V
1s
1s
2s
PE
Print
-X
t
35
t
3s 3
Down

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